Donald Trump recently reignited debate
about Tylenol (paracetamol/acetaminophen) in pregnancy. His comments drew
attention to research linking prenatal use to higher rates of autism and ADHD.
A large review of 46 studies,
including work from Harvard, found consistent associations between paracetamol
in pregnancy and neurodevelopmental risks. The FDA now advises caution: use the
lowest dose for the shortest time.
Tylenol in pregnancy linked to higher
autism risk, Harvard scientists report
Researchers reviewing 46 studies found evidence linking prenatal acetaminophen (Tylenol) exposure with higher risks of autism and ADHD. The FDA has since urged caution, echoing scientists’ advice that the drug be used only at the lowest effective dose and shortest duration. While important for managing fever and pain in pregnancy, prolonged use may pose risks to fetal development. Experts stress careful medical oversight and further investigation.
- Paracetamol depletes glutathione (GSH),
the body’s main antioxidant.
- This raises oxidative stress in both
mother and fetus.
- The fetus has weak antioxidant defences,
so damage may occur during critical brain development.
But here is the dilemma: the fever, pain, or inflammation that drives a mother to take paracetamol is itself risky. We have long known from maternal immune activation models that fever and cytokine surges in pregnancy can disturb fetal brain development and cause autism or schizophrenia. There is also evidence linking maternal immune activation to ADHD in the offspring.
So, what is the solution? Pair
paracetamol with NAC.
Why NAC?
- NAC (N-acetylcysteine) is a precursor to
glutathione.
- It’s used worldwide in emergency rooms to
save lives after paracetamol/ acetaminophen overdose.
- In pregnancy, NAC has been shown to reduce
miscarriage risk by 50%,
N-acetyl
cysteine for treatment of recurrent unexplained pregnancy loss
- Increased pregnancy continuation: Women
receiving NAC and folic acid were 2.9 times more likely to continue
their pregnancies beyond 20 weeks compared to those receiving folic acid
alone
- Higher
take-home baby rate: The NAC group had a 1.98 times higher rate of
delivering a live baby.
- These findings suggest that NAC, an
antioxidant, may help mitigate oxidative stress, a factor implicated in
pregnancy loss.
A combined Paracetamol/acetaminophen +
NAC pill would:
- Prevent liver toxicity,
- Buffer oxidative stress in the fetus,
- Eliminate the overdose suicide risk that
haunts current paracetamol use.
So far, no company has produced it.
Perhaps the “rotten egg” smell of NAC is a barrier—but solid sustained-release
tablets avoid this.
Why Paracetamol/acetaminophen
use is problematic in under 5s
Paracetamol depletes glutathione
(GSH), the body’s primary antioxidant, increasing oxidative stress. A fetus
with some genetic predispositions might already be in a state of oxidative
stress, as might the mother
Paracetamol is mainly metabolized in
the liver. A small fraction is metabolized into NAPQI — a reactive toxic
metabolite. Glutathione (GSH) neutralizes NAPQI by forming a harmless
conjugate.
If GSH stores are low (or paracetamol
is taken in high doses), NAPQI accumulates, causing liver toxicity and GSH is
exhausted raising oxidative stress.
Acute oxidative stress can be very
damaging to developing brains. The risk after 5 years old fades away, other
than in those who have already exhibited a profound metabolic/mitochondrial
condition.
Why
Oxidative Stress Rises in Pregnancy
Placental
development: Early pregnancy is low-oxygen; as blood flow increases, oxygen
surges and generates reactive oxygen species (ROS).
High
metabolic demand: The mother and placenta require much more energy, leading to
increased mitochondrial ROS.
Immune
adaptations: Pregnancy involves a shift in maternal immunity, with inflammatory
cytokines contributing to oxidative stress.
Fetal
growth: Rapid cell division and organ development naturally produce oxidative
byproducts, while the fetus’s antioxidant defenses are immature.
Limited
antioxidant reserves: Maternal antioxidants (glutathione, vitamins C & E,
enzymes) are partly depleted as pregnancy progresses.
Compounding
Risk Factors
Polycystic
Ovary Syndrome (PCOS): Associated with high androgens, insulin resistance, and
chronic inflammation. These increase oxidative stress and are linked to higher
autism risk in offspring.
Gestational Diabetes: Maternal hyperglycemia and insulin resistance increase ROS, damage the placenta, and expose the fetus to oxidative and metabolic stress.
Other
amplifiers: Obesity, infection, fever, or poor nutrition further elevate
oxidative stress.
How
Oxidative Stress Affects the Fetus
Neurodevelopmental disruption: ROS can damage neural stem cells, impair migration, and disturb synapse formation.
Epigenetic
reprogramming: Oxidative stress alters DNA methylation and gene expression,
shaping long-term brain function.
Immune
activation: Inflammatory cytokines cross the placenta and disturb fetal brain
development.
Mitochondrial
dysfunction: ROS damage fetal mitochondria, reducing energy for developing
neurons.
Neurotransmitter
imbalance: Antioxidant depletion disrupts glutamate/GABA balance and monoamine
systems.
Consequences
for the Unborn Child
Most pregnancies manage oxidative stress without harm, thanks to maternal–fetal antioxidant defences.
When
oxidative stress overwhelms these defences—especially in mothers with PCOS,
GDM, or infections—the risk of complications rises:
Preterm
birth, growth restriction, or preeclampsia
Higher
vulnerability to neurodevelopmental disorders, including autism spectrum
disorder (ASD) and ADHD.
Genetic
predispositions in antioxidant or mitochondrial pathways may make some fetuses
especially sensitive to these oxidative challenges.
Pregnancy:
Choosing safer options for pain and fever
- Paracetamol → Remains the best option if pain relief
is absolutely needed, but should be
paired with NAC.
- NSAIDs (ibuprofen, mefenamic acid) → Unsafe in later pregnancy due to fetal
kidney damage and premature closure of the ductus arteriosus. Premature
closure of the ductus arteriosus is a serious condition that occurs when
the fetal blood vessel connecting the pulmonary artery to the aorta closes
before birth. Do not use NSAIDs!
- NAC supplementation → Low-cost, safe, and evidence-backed
for reducing oxidative stress.
Infancy and Early
Childhood
- Paracetamol
- Licensed from birth.
- Effective for pain and fever, but still
depletes glutathione.
- In at-risk infants (metabolic or
mitochondrial issues), consider pairing with NAC.
- NSAIDs (ibuprofen, Ponstan)
- Suitable from 3–6 months (depending on
guidelines).
- Do not deplete glutathione, making them
safer for oxidative stress.
- Hydration matters to protect kidneys.
Vaccinations,
Fever, and Oxidative Stress
Vaccines work by briefly activating
the immune system. This triggers a short burst of oxidative stress—far smaller
than that caused by actual infections.
- Healthy children clear this easily.
- At-risk children (mitochondrial disease,
metabolic errors, weak antioxidant systems) may struggle, leading to
fatigue, regression-like symptoms, or metabolic instability.
Medication
choices around vaccines
- NSAIDs → Good for post-vaccine fever. Avoid routine pre-dosing to
prevent dampening immunity, unless the child is in the at-risk group.
- Paracetamol → Pre-vaccine dosing can reduce antibody
production and reduce GSH. Post vaccine should be paired with NAC.
- Montelukast → Anti-inflammatory, theoretically
helpful in at-risk children, but not tested in trials, but is used at
metabolic/mitochondrial clinics treating children.
- NAC → Biologically plausible support for antioxidant status,
though not studied formally in this setting.
Mainstream pediatrics avoids routine
prophylactic anti-inflammatories, but some specialists (e.g., Dr. Kelley, Johns
Hopkins) do use them selectively in fragile children. Using paracetamol without
NAC is a bad idea.
Metabolic
Decompensation: The Hidden Risk
Some children with mitochondrial or
metabolic disorders cannot handle stress from fever or illness. This can
trigger:
- Energy failure (low ATP)
- Accumulation of toxic metabolites
(lactate, ammonia)
- Seizures or regression
In developing brains, these crises can
leave permanent autism-like features and/or intellectual disability. These symptoms are secondary to brain injury. Prevention is
key:
- Hydration, glucose support
- Early fever control
- Antioxidant support (NAC, vitamins C
& E)
Key Takeaways
- Pregnancy: If pain relief is needed, paracetamol +
NAC is safer than paracetamol alone. Avoid NSAIDs.
- Infancy: Paracetamol is widely used, but NSAIDs are
safer from 3 months onward when oxidative stress is a concern.
- Vaccination: Vaccines prevent far greater oxidative
stress from infections. At-risk children may benefit from antioxidant or
anti-inflammatory support, but this should be individualized.
- Metabolic decompensation: Recognize and prevent crises in
vulnerable children—this reduces risk of secondary neurodevelopmental
injury.
Conclusion
Paracetamol has been trusted for
decades, but its link with oxidative stress and neurodevelopmental risk is
becoming harder to ignore. A Paracetamol + NAC pill makes both medical and
common sense—safer for mothers, safer for children, and suicide-proof.
Until then, thoughtful use of NAC,
NSAIDs, and tailored fever management could make a real difference in
protecting brain development from conception through early childhood.
My original draft
post was rather long, so here is the “optional” part 2, for any avid readers
out there!
Part 2: Vaccines,
Oxidative Stress, and Children at Risk
Why some kids may react differently —
and what parents and clinicians can do
Vaccines are one of the greatest
public health achievements, protecting children from infections that would
otherwise cause significant illness, hospitalization, or death. But for
children with mitochondrial disorders, metabolic diseases, or weak antioxidant
systems, even routine vaccination can temporarily stress the body.
How Vaccines Trigger Oxidative Stress
- Vaccination works by activating the
immune system, prompting cytokine release, mild inflammation, and reactive
oxygen species (ROS) production.
- In healthy children, this burst is short-lived.
Antioxidant defences like glutathione, superoxide dismutase, and dietary
vitamins C & E neutralize ROS quickly.
- In children with mitochondrial or
metabolic vulnerabilities, baseline ROS is already elevated, and
antioxidant defences may be limited. A small extra load from vaccination
can feel disproportionately stressful.
Why Some Children
React Differently
Mitochondrial
Disorders
- Mitochondria produce ATP and ROS.
Dysfunction means higher baseline oxidative stress and lower energy
reserves.
- A vaccine-induced oxidative spike can
linger longer, leading to fatigue, metabolic stress, or regression-like
symptoms.
Metabolic
Disorders
- Children with amino acid, fatty acid, or
urea cycle defects have limited antioxidant capacity.
- ROS accumulation may overwhelm defences,
causing secondary mitochondrial stress or toxic metabolite build-up.
Genetic Variants
- Some children carry variants that reduce
glutathione production or antioxidant enzyme activity (e.g., GSTM1/GSTT1
deletions, MTHFR variants, impaired SOD/catalase).
- Even minor oxidative challenges can
temporarily disturb synapse formation, neurotransmitter balance, and
myelination in the developing brain.
Medications
Around Vaccination
NSAIDs
- Symptom-driven use for fever or pain post-vaccine is
generally safe.
- Routine prophylactic use is usually avoided because it can reduce
antibody responses, but specialists consider this is likely minimal
Paracetamol
- Pre-vaccine dosing can modestly blunt
antibody formation in some vaccines and is unwise because it reduces GSH just
before it will be needed most.
- Post-vaccine, symptom-driven use is often
considered safe, but is unwise due to the ruction in GSH when needed most
- High-risk children should always avoid paracetamol
unless paired with NAC to protect glutathione and limit oxidative stress.
NAC
(N-acetylcysteine)
- Biologically plausible support for
antioxidant status in at-risk children.
- Safely used during pregnancy and by babies
- Not yet studied in formal vaccine trials,
but safe and used in clinical settings for other oxidative stress
conditions.
Montelukast
- Anti-inflammatory, may reduce oxidative
stress, but not proven for vaccine prophylaxis.
- Used by children at vaccination time when
already prescribed it for asthma/allergic disease.
Managing
Vaccination in At-Risk Children
1.
Ensure good
hydration, feeding, and metabolic stability before vaccination.
2.
Monitor closely
for post-vaccine fever, fatigue, or regression-like symptoms.
3.
Have supportive
measures ready:
o NAC or other antioxidant support
o Symptom-driven NSAIDs
o Avoid paracetamol unless paired with NAC
o Quick access to a specialist if metabolic
stress occurs
Takeaways for
Parents and Clinicians
- Vaccines do cause a small, transient
oxidative stress, but it is far less than the oxidative burden from
infections.
- Children with mitochondrial or metabolic
vulnerabilities may need extra care before and after vaccination.
- NAC, hydration, symptom-driven NSAIDs,
and careful monitoring can reduce risk without compromising immunity.
- Always coordinate with a metabolic or
mitochondrial specialist when planning vaccination for high-risk children.
By understanding oxidative stress, supporting antioxidant defences, and tailoring care, parents and clinicians can protect both immunity and neurodevelopment.
Since most parents, in reality, do not
have access a mitochondrial specialist it pays to do your homework in advance. All
the needed resources are in plain view.
You do wonder why nobody makes a combined Paracetamol/acetaminophen + NAC pill.
Such a pill is perfect for pregnant
women.
Nobody would be able to commit suicide
with this pill. This pill blocks the harmful effect on the liver that
ultimately can lead to death.
NAC does smell of rotten eggs. One
argument against such a pill is that it would stink and pregnant women are
often feeling nausea. If the pill is solid (like NAC Sustain) there is no smell
of rotten eggs. So you certainly can have a combined pill.
Personally, I would ban all liquid
formulations of Paracetamol, other than for babies under 3 months. Many
countries have long used exclusively Ibuprofen or Ponstan for children. Once a
child is 5 years old the potential for paracetamol to do neurodevelopmental
harm should have faded.
You can give babies NAC, it is sold in
a liquid form for this purpose. NAC acts as a mucolytic, meaning it thins mucus
in the airways.
How common is Metabolic Decompensation
as a cause of severe autism? We know it exists, but I think we will never know
how common it is. Hannah Poling is the best-known example. Evidence of an inconvenient truth.